Systematic Investigation of Subtractive Contact Patterning for High-Resolution Organic Electronic Devices
We systematically investigated the mechanism of subtractive contact patterning (SCP) and demonstrated high-resolution organic light-emitting diodes (OLEDs) using this SCP process. Owing to the application of the SCP process to various types of organic semiconducting thin films, crystalline thin film...
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| Published in | ACS applied electronic materials Vol. 5; no. 4; pp. 2197 - 2202 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
25.04.2023
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| Subjects | |
| Online Access | Get full text |
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| Abstract | We systematically investigated the mechanism of subtractive contact patterning (SCP) and demonstrated high-resolution organic light-emitting diodes (OLEDs) using this SCP process. Owing to the application of the SCP process to various types of organic semiconducting thin films, crystalline thin films (e.g., pentacene) generated patterns via the delamination mechanism and amorphous small molecule thin films (e.g., tris(8-hydroxyquinolinato)aluminum) generated patterns via the diffusion mechanism. In the pattern generation via diffusion, we reported that the higher the processing temperature and the longer the processing time were, the deeper was the pattern depth. In particular, the patterning speed was proportional to the temperature in an exponential function. SCP can be applied to doped small molecule-based thin films and limitedly applied to polymer thin films. Finally, a high-resolution OLED pattern of less than 10 μm wide was fabricated by applying the SCP process without any detrimental effects on the device performance. Furthermore, this SCP process was applied to flexible and curved thin films, which verified its potential use for roll-to-roll processes. This study provides a scientific and technological basis for the fabrication of high-resolution patterns of organic electronic devices such as OLEDs. |
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| AbstractList | We systematically investigated the mechanism of subtractive contact patterning (SCP) and demonstrated high-resolution organic light-emitting diodes (OLEDs) using this SCP process. Owing to the application of the SCP process to various types of organic semiconducting thin films, crystalline thin films (e.g., pentacene) generated patterns via the delamination mechanism and amorphous small molecule thin films (e.g., tris(8-hydroxyquinolinato)aluminum) generated patterns via the diffusion mechanism. In the pattern generation via diffusion, we reported that the higher the processing temperature and the longer the processing time were, the deeper was the pattern depth. In particular, the patterning speed was proportional to the temperature in an exponential function. SCP can be applied to doped small molecule-based thin films and limitedly applied to polymer thin films. Finally, a high-resolution OLED pattern of less than 10 μm wide was fabricated by applying the SCP process without any detrimental effects on the device performance. Furthermore, this SCP process was applied to flexible and curved thin films, which verified its potential use for roll-to-roll processes. This study provides a scientific and technological basis for the fabrication of high-resolution patterns of organic electronic devices such as OLEDs. |
| Author | Lee, So-Hyeon Noh, Eun-Kyung Hwa, Subin Kim, Min-Hoi Park, Hea-Lim Lee, Jae-Hyun Lee, Jonghee Lee, Seung-Hoon |
| AuthorAffiliation | Seoul National University of Science and Technology Department of Materials Science and Engineering Department of Creative Convergence Engineering |
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| Keywords | patterning organic materials organic light-emitting diode organic electronics subtractive contact patterning high resolution |
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| Title | Systematic Investigation of Subtractive Contact Patterning for High-Resolution Organic Electronic Devices |
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